@ARTICLE{954501, 
author={Debin Zhao and Chan, Y. K. and Wen Gao}, 
journal={Circuits and Systems for Video Technology, IEEE Transactions on}, 
title={Low-complexity and low-memory entropy coder for image compression}, 
year={2001}, 
volume={11}, 
number={10}, 
pages={1140-1145}, 
keywords={computational complexity;data compression;discrete cosine transforms;discrete wavelet transforms;entropy codes;image coding;parallel processing;quantisation (signal);transform coding;trees (mathematics);variable length codes;DCT;DWT;Golomb-Rice codes;JPEG;LLEC;baseline JPEG;bit rates;compression efficiency;computational complexity;discrete cosine transform;discrete wavelet transform;embedded zerotree wavelet coding;image compression;image entropy coder;low-complexity entropy coder;low-memory entropy coder;parallel processing support;region of interest coding;set partition in hierarchical trees;transformed coefficients;universal entropy coder;variable-length codes;variable-length integer;Arithmetic;Computational complexity;Computer science;Discrete cosine transforms;Discrete wavelet transforms;Entropy coding;Hardware;Image coding;PSNR;Transform coding}, 
doi={10.1109/76.954501}, 
ISSN={1051-8215},}
@INPROCEEDINGS{672291, 
author={Kawahara, M. and Chiu, Y.-J. and Berger, T.}, 
booktitle={Data Compression Conference, 1998. DCC '98. Proceedings}, 
title={High-speed software implementation of Huffman coding}, 
year={1998}, 
pages={553-}, 
keywords={Huffman codes;decoding;video codecs;video coding;Huffman coding;Huffman word;bit-based operations;byte-based Huffman decoding table;byte-based table;high-speed software implementation;offset-based Huffman encoding table;real-time performance;software-only codecs;still image compression;subtable;text compression;video compression;Bridges;Codecs;Decoding;Encoding;Huffman coding;Image coding;Printing;Streaming media;Video compression;Writing}, 
doi={10.1109/DCC.1998.672291}, 
ISSN={1068-0314},}
@INPROCEEDINGS{5974482, 
author={Zhiwei Tang}, 
booktitle={Computer Science and Service System (CSSS), 2011 International Conference on}, 
title={One adaptive binary arithmetic coding system based on context}, 
year={2011}, 
pages={1440-1443}, 
keywords={arithmetic codes;binary codes;entropy;estimation theory;prediction theory;probability;transforms;variable length codes;video coding;H.264/AVC;context-based adaptive binary arithmetic coding;entropy coding method;error restriction machine;flexible macro block ordering;integer transform;intersymbol redundancy;laying code;multimode prediction;one adaptive binary arithmetic coding system;statistic characteristic;symbol probability estimation;universal variable length codes;video coding standard;Adaptive systems;Context;Context modeling;Encoding;Redundancy;Transform coding;Video coding;arithmetic coding;context modeling;entropy coding;video coding}, 
doi={10.1109/CSSS.2011.5974482},}
@INPROCEEDINGS{5536972, 
author={Han-Chang Ho and Lei, S. -F}, 
booktitle={Circuits and Systems (ISCAS), Proceedings of 2010 IEEE International Symposium on}, 
title={Fast Huffman decoding algorithm by multiple-bit length search scheme for MPEG-2/4 AAC}, 
year={2010}, 
pages={2844-2847}, 
keywords={Huffman codes;audio coding;iterative decoding;probability;Huffman decoding algorithm;MPEG-2/4 AAC;advanced audio coding;multiple-bit length search scheme;probability;search iteration;symbol decoding;Decoding}, 
doi={10.1109/ISCAS.2010.5536972},}
@INPROCEEDINGS{5365034, 
author={Pei-Man Yang and Jen-Kuei Yang and Wen-Shan Wang and Shau-Yin Tseng}, 
booktitle={Multimedia, 2009. ISM '09. 11th IEEE International Symposium on}, 
title={Fast JPEG Huffman Table Restoring and Decoding for Embedded DSP Implementations}, 
year={2009}, 
pages={118-123}, 
keywords={Huffman codes;decoding;digital signal processing chips;image coding;image restoration;JPEG coding;JPEG decoder;digital signal processing;embedded DSP;fast JPEG Huffman table restoration;file header;image coding;Arithmetic;Code standards;Decoding;Digital signal processing;Entropy;Hardware;Image coding;Image restoration;Transform coding;Video coding}, 
doi={10.1109/ISM.2009.18},}
@ARTICLE{1192978, 
author={Lakhani, G.}, 
journal={Image Processing, IEEE Transactions on}, 
title={Modified JPEG Huffman coding}, 
year={2003}, 
volume={12}, 
number={2}, 
pages={159-169}, 
keywords={Huffman codes;adaptive codes;arithmetic codes;code standards;data compression;discrete cosine transforms;image coding;sequential codes;telecommunication standards;transform coding;visual communication;AC coefficients;DCT block;JPEG baseline compression algorithm;JPEG sequential-mode Huffman coding;JPEG spectral selection method;adaptive Huffman coding;arithmetic coding;average code reduction;band boundaries;code size reduction;code table;end-of-block marker;image code size;modified JPEG Huffman coding;progressive image transmission;redundancy;run-length;zero coefficients;Arithmetic;Codecs;Compression algorithms;Discrete cosine transforms;Entropy coding;Huffman coding;Image coding;Image communication;Quantization;Transform coding}, 
doi={10.1109/TIP.2003.809001}, 
ISSN={1057-7149},}
@INPROCEEDINGS{5164745, 
author={Jennie Si and Lei Yang and Chao Lu and Jian Sun and Shengwei Mei}, 
booktitle={Control and Automation, 2009. MED '09. 17th Mediterranean Conference on}, 
title={Approximate dynamic programming for continuous state and control problems}, 
year={2009}, 
pages={1415-1420}, 
keywords={control nonlinearities;dynamic programming;optimal control;power grids;power system control;uncertain systems;China southern network;adaptive dynamic programming;approximate dynamic programming;computation complexity;control sequences;direct enumeration method;heuristic dynamic programming;nonlinear tracking problem;optimal control policy;power grid coordination control problem;Automatic control;Automation;Chaos;Control systems;Dynamic programming;Learning systems;Nonlinear control systems;Optimal control;Power system control;Stochastic systems;Approximate Dynamic Programming (ADP);Power system stability control;direct heuristic dynamic programming (direct HDP);nonlinear tracking control}, 
doi={10.1109/MED.2009.5164745},}
@book{salomon2004data,
  title={Data Compression.: The Complete Reference.},
  author={Salomon, D.},
  isbn={9780387406978},
  lccn={2003065725},
  url={http://books.google.co.za/books?id=FlWjiShUst0C},
  year={2004},
  publisher={Springer-Verlag New York Incorporated}
}
@INPROCEEDINGS{6339599, 
author={Patel, R.A. and Yao Zhang and Mak, J. and Davidson, A. and Owens, J.D.}, 
booktitle={Innovative Parallel Computing (InPar), 2012}, 
title={Parallel lossless data compression on the GPU}, 
year={2012}, 
pages={1-9}, 
keywords={Huffman codes;data compression;graphics processing units;parallel algorithms;telecommunication computing;trees (mathematics);BWT;Burrows-Wheeler transform;GPU architectures;Huffman coding;Huffman tree;MTF;bzip2-like lossless data compression scheme;move-to-front transform;parallel lossless data compression;parallel reduction scheme;scan-based parallel MTF algorithm;Arrays;Encoding;Graphics processing unit;Histograms;Humans;Instruction sets;Transforms}, 
doi={10.1109/InPar.2012.6339599},}
@misc{HuffmanCodingSite,
  author = {Seeck, Roger},
  title = {Binary Essence compression library},
  howpublished = {\url{http://www.binaryessence.com}},
  note = {Accessed: 2013-05-17}
}